mirror of
https://github.com/trezor/trezor-firmware.git
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432 lines
12 KiB
Python
432 lines
12 KiB
Python
# This file is part of the Trezor project.
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#
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# Copyright (C) 2012-2018 SatoshiLabs and contributors
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#
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# This library is free software: you can redistribute it and/or modify
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# it under the terms of the GNU Lesser General Public License version 3
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# as published by the Free Software Foundation.
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#
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# This library is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU Lesser General Public License for more details.
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#
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# You should have received a copy of the License along with this library.
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# If not, see <https://www.gnu.org/licenses/lgpl-3.0.html>.
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'''
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Extremely minimal streaming codec for a subset of protobuf. Supports uint32,
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bytes, string, embedded message and repeated fields.
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For de-sererializing (loading) protobuf types, object with `Reader`
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interface is required:
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>>> class Reader:
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>>> def readinto(self, buffer):
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>>> """
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>>> Reads `len(buffer)` bytes into `buffer`, or raises `EOFError`.
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>>> """
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For serializing (dumping) protobuf types, object with `Writer` interface is
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required:
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>>> class Writer:
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>>> def write(self, buffer):
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>>> """
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>>> Writes all bytes from `buffer`, or raises `EOFError`.
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>>> """
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'''
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from io import BytesIO
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from typing import Any, Optional
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_UVARINT_BUFFER = bytearray(1)
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def load_uvarint(reader):
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buffer = _UVARINT_BUFFER
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result = 0
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shift = 0
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byte = 0x80
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while byte & 0x80:
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if reader.readinto(buffer) == 0:
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raise EOFError
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byte = buffer[0]
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result += (byte & 0x7F) << shift
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shift += 7
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return result
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def dump_uvarint(writer, n):
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if n < 0:
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raise ValueError("Cannot dump signed value, convert it to unsigned first.")
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buffer = _UVARINT_BUFFER
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shifted = True
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while shifted:
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shifted = n >> 7
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buffer[0] = (n & 0x7F) | (0x80 if shifted else 0x00)
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writer.write(buffer)
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n = shifted
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# protobuf interleaved signed encoding:
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# https://developers.google.com/protocol-buffers/docs/encoding#structure
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# the idea is to save the sign in LSbit instead of twos-complement.
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# so counting up, you go: 0, -1, 1, -2, 2, ... (as the first bit changes, sign flips)
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#
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# To achieve this with a twos-complement number:
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# 1. shift left by 1, leaving LSbit free
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# 2. if the number is negative, do bitwise negation.
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# This keeps positive number the same, and converts negative from twos-complement
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# to the appropriate value, while setting the sign bit.
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#
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# The original algorithm makes use of the fact that arithmetic (signed) shift
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# keeps the sign bits, so for a n-bit number, (x >> n) gets us "all sign bits".
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# Then you can take "number XOR all-sign-bits", which is XOR 0 (identity) for positive
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# and XOR 1 (bitwise negation) for negative. Cute and efficient.
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#
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# But this is harder in Python because we don't natively know the bit size of the number.
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# So we have to branch on whether the number is negative.
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def sint_to_uint(sint):
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res = sint << 1
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if sint < 0:
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res = ~res
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return res
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def uint_to_sint(uint):
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sign = uint & 1
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res = uint >> 1
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if sign:
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res = ~res
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return res
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class UVarintType:
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WIRE_TYPE = 0
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class SVarintType:
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WIRE_TYPE = 0
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class BoolType:
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WIRE_TYPE = 0
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class BytesType:
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WIRE_TYPE = 2
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class UnicodeType:
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WIRE_TYPE = 2
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class MessageType:
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WIRE_TYPE = 2
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@classmethod
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def get_fields(cls):
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return {}
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def __init__(self, **kwargs):
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for kw in kwargs:
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setattr(self, kw, kwargs[kw])
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self._fill_missing()
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def __eq__(self, rhs):
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return self.__class__ is rhs.__class__ and self.__dict__ == rhs.__dict__
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def __repr__(self):
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d = {}
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for key, value in self.__dict__.items():
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if value is None or value == []:
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continue
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d[key] = value
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return "<%s: %s>" % (self.__class__.__name__, d)
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def __iter__(self):
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return iter(self.keys())
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def keys(self):
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return (name for name, _, _ in self.get_fields().values())
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def __getitem__(self, key):
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return getattr(self, key)
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def _fill_missing(self):
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# fill missing fields
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for fname, ftype, fflags in self.get_fields().values():
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if not hasattr(self, fname):
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if fflags & FLAG_REPEATED:
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setattr(self, fname, [])
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else:
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setattr(self, fname, None)
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def ByteSize(self):
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data = BytesIO()
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dump_message(data, self)
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return len(data.getvalue())
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class LimitedReader:
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def __init__(self, reader, limit):
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self.reader = reader
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self.limit = limit
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def readinto(self, buf):
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if self.limit < len(buf):
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raise EOFError
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else:
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nread = self.reader.readinto(buf)
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self.limit -= nread
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return nread
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class CountingWriter:
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def __init__(self):
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self.size = 0
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def write(self, buf):
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nwritten = len(buf)
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self.size += nwritten
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return nwritten
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FLAG_REPEATED = 1
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def load_message(reader, msg_type):
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fields = msg_type.get_fields()
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msg = msg_type()
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while True:
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try:
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fkey = load_uvarint(reader)
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except EOFError:
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break # no more fields to load
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ftag = fkey >> 3
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wtype = fkey & 7
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field = fields.get(ftag, None)
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if field is None: # unknown field, skip it
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if wtype == 0:
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load_uvarint(reader)
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elif wtype == 2:
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ivalue = load_uvarint(reader)
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reader.readinto(bytearray(ivalue))
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else:
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raise ValueError
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continue
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fname, ftype, fflags = field
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if wtype != ftype.WIRE_TYPE:
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raise TypeError # parsed wire type differs from the schema
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ivalue = load_uvarint(reader)
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if ftype is UVarintType:
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fvalue = ivalue
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elif ftype is SVarintType:
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fvalue = uint_to_sint(ivalue)
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elif ftype is BoolType:
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fvalue = bool(ivalue)
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elif ftype is BytesType:
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buf = bytearray(ivalue)
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reader.readinto(buf)
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fvalue = bytes(buf)
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elif ftype is UnicodeType:
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buf = bytearray(ivalue)
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reader.readinto(buf)
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fvalue = buf.decode()
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elif issubclass(ftype, MessageType):
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fvalue = load_message(LimitedReader(reader, ivalue), ftype)
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else:
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raise TypeError # field type is unknown
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if fflags & FLAG_REPEATED:
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pvalue = getattr(msg, fname)
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pvalue.append(fvalue)
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fvalue = pvalue
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setattr(msg, fname, fvalue)
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return msg
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def dump_message(writer, msg):
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repvalue = [0]
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mtype = msg.__class__
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fields = mtype.get_fields()
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for ftag in fields:
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fname, ftype, fflags = fields[ftag]
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fvalue = getattr(msg, fname, None)
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if fvalue is None:
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continue
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fkey = (ftag << 3) | ftype.WIRE_TYPE
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if not fflags & FLAG_REPEATED:
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repvalue[0] = fvalue
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fvalue = repvalue
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for svalue in fvalue:
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dump_uvarint(writer, fkey)
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if ftype is UVarintType:
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dump_uvarint(writer, svalue)
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elif ftype is SVarintType:
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dump_uvarint(writer, sint_to_uint(svalue))
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elif ftype is BoolType:
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dump_uvarint(writer, int(svalue))
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elif ftype is BytesType:
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dump_uvarint(writer, len(svalue))
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writer.write(svalue)
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elif ftype is UnicodeType:
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if not isinstance(svalue, bytes):
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svalue = svalue.encode()
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dump_uvarint(writer, len(svalue))
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writer.write(svalue)
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elif issubclass(ftype, MessageType):
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counter = CountingWriter()
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dump_message(counter, svalue)
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dump_uvarint(writer, counter.size)
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dump_message(writer, svalue)
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else:
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raise TypeError
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def format_message(
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pb: MessageType,
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indent: int = 0,
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sep: str = " " * 4,
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truncate_after: Optional[int] = 256,
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truncate_to: Optional[int] = 64,
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) -> str:
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def mostly_printable(bytes):
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if not bytes:
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return True
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printable = sum(1 for byte in bytes if 0x20 <= byte <= 0x7E)
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return printable / len(bytes) > 0.8
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def pformat_value(value: Any, indent: int) -> str:
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level = sep * indent
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leadin = sep * (indent + 1)
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if isinstance(value, MessageType):
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return format_message(value, indent, sep)
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if isinstance(value, list):
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# short list of simple values
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if not value or not isinstance(value[0], MessageType):
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return repr(value)
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# long list, one line per entry
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lines = ["[", level + "]"]
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lines[1:1] = [leadin + pformat_value(x, indent + 1) + "," for x in value]
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return "\n".join(lines)
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if isinstance(value, dict):
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lines = ["{"]
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for key, val in sorted(value.items()):
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if val is None or val == []:
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continue
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lines.append(leadin + key + ": " + pformat_value(val, indent + 1) + ",")
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lines.append(level + "}")
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return "\n".join(lines)
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if isinstance(value, (bytes, bytearray)):
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length = len(value)
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suffix = ""
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if truncate_after and length > truncate_after:
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suffix = "..."
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value = value[: truncate_to or 0]
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if mostly_printable(value):
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output = repr(value)
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else:
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output = "0x" + value.hex()
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return "{} bytes {}{}".format(length, output, suffix)
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return repr(value)
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return "{name} ({size} bytes) {content}".format(
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name=pb.__class__.__name__,
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size=pb.ByteSize(),
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content=pformat_value(pb.__dict__, indent),
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)
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def value_to_proto(ftype, value):
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if issubclass(ftype, MessageType):
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raise TypeError("value_to_proto only converts simple values")
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if ftype in (UVarintType, SVarintType):
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return int(value)
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if ftype is BoolType:
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return bool(value)
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if ftype is UnicodeType:
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return str(value)
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if ftype is BytesType:
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if isinstance(value, str):
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return bytes.fromhex(value)
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elif isinstance(value, bytes):
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return value
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else:
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raise TypeError("can't convert {} value to bytes".format(type(value)))
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def dict_to_proto(message_type, d):
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params = {}
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for fname, ftype, fflags in message_type.get_fields().values():
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repeated = fflags & FLAG_REPEATED
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value = d.get(fname)
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if value is None:
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continue
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if not repeated:
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value = [value]
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if issubclass(ftype, MessageType):
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function = dict_to_proto
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else:
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function = value_to_proto
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newvalue = [function(ftype, v) for v in value]
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if not repeated:
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newvalue = newvalue[0]
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params[fname] = newvalue
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return message_type(**params)
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def to_dict(msg, hexlify_bytes=True):
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def convert_value(value):
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if hexlify_bytes and isinstance(value, bytes):
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return value.hex()
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elif isinstance(value, MessageType):
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return to_dict(value, hexlify_bytes)
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elif isinstance(value, list):
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return [convert_value(v) for v in value]
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else:
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return value
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res = {}
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for key, value in msg.__dict__.items():
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if value is None or value == []:
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continue
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res[key] = convert_value(value)
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return res
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